gristlabs_grist-core/app/common/ValueConverter.ts

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import {DocData} from 'app/common/DocData';
import * as gristTypes from 'app/common/gristTypes';
import {isList} from 'app/common/gristTypes';
import {BaseFormatter, createFullFormatterFromDocData} from 'app/common/ValueFormatter';
import {
createParserOrFormatterArgumentsRaw,
createParserRaw,
ReferenceListParser,
ReferenceParser,
ValueParser
} from 'app/common/ValueParser';
import {CellValue, GristObjCode} from 'app/plugin/GristData';
/**
* Base class for converting values from one type to another with the convert() method.
* Has a formatter for the source column
* and a parser for the destination column.
*
* The default convert() is for non-list destination types, so if the source value
* is a list it only converts nicely if the list contains exactly one element.
*/
export class ValueConverter {
constructor(public formatter: BaseFormatter, public parser: ValueParser) {
}
public convert(value: any): any {
if (isList(value)) {
if (value.length === 1) {
// Empty list: ['L']
return null;
} else if (value.length === 2) {
// Singleton list: ['L', value]
// Convert just that one value.
value = value[1];
} else {
// List with multiple values. Since we're converting to just one value,
// format the whole thing as text, which is an error for most types.
return this.formatter.formatAny(value);
}
}
return this.convertInner(value);
}
protected convertInner(value: any): any {
const formatted = this.formatter.formatAny(value);
return this.parser.cleanParse(formatted);
}
}
/**
* Base class for converting to a list type (Reference List or Choice List).
*
* Wraps single values in a list, and converts lists elementwise.
*/
class ListConverter extends ValueConverter {
// Don't parse strings like "Smith, John" which may look like lists but represent a single choice.
// TODO this works when the source is a Choice column, but not when it's a Reference to a Choice column.
// But the guessed choices are also broken in that case.
private _choices: Set<string> = new Set((this.formatter.widgetOpts as any).choices || []);
public convert(value: any): any {
if (typeof value === "string" && !this._choices.has(value)) {
// Parse CSV/JSON
return this.parser.cleanParse(value);
}
const values = isList(value) ? value.slice(1) : [value];
if (!values.length || value == null) {
return null;
}
return this.handleValues(value, values.map(v => this.convertInner(v)));
}
protected handleValues(originalValue: any, values: any[]) {
return ['L', ...values];
}
}
class ChoiceListConverter extends ListConverter {
/**
* Convert each source value to a 'Choice'
*/
protected convertInner(value: any): any {
return this.formatter.formatAny(value);
}
}
class ReferenceListConverter extends ListConverter {
private _innerConverter = new ReferenceConverter(
this.formatter,
new ReferenceParser("Ref", this.parser.widgetOpts, this.parser.docSettings),
);
constructor(public formatter: BaseFormatter, public parser: ReferenceListParser) {
super(formatter, parser);
// Prevent the parser from looking up reference values in the frontend.
// Leave it to the data engine which has a much more efficient algorithm for long lists of values.
delete parser.tableData;
}
public handleValues(originalValue: any, values: any[]): any {
const result = [];
let lookupColumn: string = "";
const raw = this.formatter.formatAny(originalValue); // AltText if the reference lookup fails
for (const value of values) {
if (typeof value === "string") {
// Failed to parse one of the references, so return a raw string for the whole thing
return raw;
} else {
// value is a lookup tuple: ['l', value, options]
result.push(value[1]);
lookupColumn = value[2].column;
}
}
return ['l', result, {column: lookupColumn, raw}];
}
/**
* Convert each source value to a 'Reference'
*/
protected convertInner(value: any): any {
return this._innerConverter.convert(value);
}
}
class ReferenceConverter extends ValueConverter {
private _innerConverter: ValueConverter = createConverter(this.formatter, this.parser.visibleColParser);
constructor(public formatter: BaseFormatter, public parser: ReferenceParser) {
super(formatter, parser);
// Prevent the parser from looking up reference values in the frontend.
// Leave it to the data engine which has a much more efficient algorithm for long lists of values.
delete parser.tableData;
}
protected convertInner(value: any): any {
// Convert to the type of the visible column.
const converted = this._innerConverter.convert(value);
return this.parser.lookup(converted, this.formatter.formatAny(value));
}
}
class NumericConverter extends ValueConverter {
protected convertInner(value: any): any {
if (typeof value === "boolean") {
return value ? 1 : 0;
}
return super.convertInner(value);
}
}
class DateConverter extends ValueConverter {
private _sourceType = gristTypes.extractInfoFromColType(this.formatter.type);
protected convertInner(value: any): any {
// When converting Date->DateTime, DateTime->Date, or between DateTime timezones,
// it's important to send an encoded Date/DateTime object rather than just a timestamp number
// so that the data engine knows what to do in do_convert, especially regarding timezones.
// If the source column is a Reference to a Date/DateTime then `value` is already
// an encoded object from the display column which has type Any.
value = gristTypes.reencodeAsAny(value, this._sourceType);
if (Array.isArray(value) && (
value[0] === GristObjCode.Date ||
value[0] === GristObjCode.DateTime
)) {
return value;
}
return super.convertInner(value);
}
}
export const valueConverterClasses: { [type: string]: typeof ValueConverter } = {
Date: DateConverter,
DateTime: DateConverter,
ChoiceList: ChoiceListConverter,
Ref: ReferenceConverter,
RefList: ReferenceListConverter,
Numeric: NumericConverter,
Int: NumericConverter,
};
export function createConverter(formatter: BaseFormatter, parser: ValueParser) {
const cls = valueConverterClasses[gristTypes.extractTypeFromColType(parser.type)] || ValueConverter;
return new cls(formatter, parser);
}
/**
* Used by the ConvertFromColumn user action in the data engine.
* The higher order function separates docData (passed by ActiveDoc)
* from the arguments passed to call_external in Python.
*/
export function convertFromColumn(docData: DocData) {
return function(
sourceColRef: number,
type: string,
widgetOpts: string,
visibleColRef: number,
values: ReadonlyArray<CellValue>,
displayColValues?: ReadonlyArray<CellValue>,
): CellValue[] {
const formatter = createFullFormatterFromDocData(docData, sourceColRef);
const parser = createParserRaw(
...createParserOrFormatterArgumentsRaw(docData, type, widgetOpts, visibleColRef)
);
const converter = createConverter(formatter, parser);
return convertValues(converter, values, displayColValues || values);
};
}
export function convertValues(
converter: ValueConverter,
// Raw values from the actual column, e.g. row IDs for reference columns
values: ReadonlyArray<CellValue>,
// Values from the display column, which is the same as the raw values for non-referencing columns.
// In almost all cases these are the values that actually matter and get converted.
displayColValues: ReadonlyArray<CellValue>,
): CellValue[] {
// Converting Ref <-> RefList without changing the target table is a special case - see prepTransformColInfo.
// In this case we deal with the actual row IDs stored in the real column,
// whereas in all other cases we use display column values.
const sourceType = gristTypes.extractInfoFromColType(converter.formatter.type);
const targetType = gristTypes.extractInfoFromColType(converter.parser.type);
const refToRefList = (
sourceType.type === "Ref" &&
targetType.type === "RefList" &&
sourceType.tableId === targetType.tableId
);
const refListToRef = (
sourceType.type === "RefList" &&
targetType.type === "Ref" &&
sourceType.tableId === targetType.tableId
);
return displayColValues.map((displayVal, i) => {
const actualValue = values[i];
if (refToRefList && typeof actualValue === "number") {
if (actualValue === 0) {
return null;
} else {
return ["L", actualValue];
}
} else if (refListToRef && isList(actualValue)) {
if (actualValue.length === 1) {
// Empty list: ['L']
return 0;
} else if (actualValue.length === 2) {
// Singleton list: ['L', rowId]
return actualValue[1];
}
}
return converter.convert(displayVal);
});
}